RU2017372C1 - Method for extraction of rootstock of rootshoot weeds and machine for their extraction - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method includes plowing of rootstock field by plows without colter and with furrow down to 25 sm, subsequent soil treatment by screening it, and extraction of weed rootstocks by combined action on them by forces of impact, cutting and vibrowiping, and transportation of extracted rootstock to bin, and then, beyond the field. Machine for realization of this method has energy source, plowshare, slaving wheel, elevator, separator executing plane-parallel motion. Installed above separator receiving zone are spring-loaded rotor with hammers, and axial rod for counterhammers. Part of counterhammers has rack skids. Besides, there is bin for accumulation of extracted rootstocks. EFFECT: higher efficiency. 6 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to methods for extracting rhizomes of root shoot weeds, for example reeds, using devices for combing them.

 A known method of extracting rhizomes of plant mass, including the extraction of rhizomes by sifting the soil layer, which is carried out using a device consisting of digging knives and a set of disc drums (US patent N 2742839, 1953). The disadvantages of the method are low productivity and poor quality extraction of rhizomes from the composition of medium and heavy soils with powerful rhizomes of root shoot weeds. At the same time, the degree of sifting of the soil layer is sharply reduced due to the passive effect of disk drums on the processed material, the working bodies become clogged, soil is being unloaded. For cleaning, it is necessary to stop the unit, which reduces the performance. In addition, when using this device, a fertile soil layer is carried out along with the roots.

 A known method of extracting rhizomes, including the operation of plowing the soil with plows without skimmers and dumps to a depth of 16 cm, and then extracting the rhizomes with the developed installation (A.S. Sattarov, Z.N. Nasyrov, V.V. Yakimenko. Installation for combing rhizome weeds . - Tractors and agricultural machinery, 1989, N 7, p. 36, 38). The disadvantage of this method is also low productivity, since when extracting rhizomes from the composition of medium and heavy soils, the active influence of the working bodies of the screening surfaces of the installation does not provide a sufficient degree of extraction and the quality of the extracted material. In addition, screens and installations are intended for sifting the soil, and crushing lumps and breaking the connection of rhizomes with soil occurs only due to the grinding force. When using the specified device, soil fertility is also impaired due to its removal.

 The purpose of the invention is the expansion of functionality, increasing the efficiency of extraction of rhizomes, as well as expanding the range of application of the machine.

 This is achieved by the fact that in the proposed method, the extraction of rhizomes is carried out by a combined effect on the extracted material by the force of impact, shear and vibration wiping.

 In a machine containing a ploughshare, a copy wheel, an elevator, a screen and a hopper, the screen is made in the form of a separator that performs plane-parallel movement, while a floating spring-loaded rotor equipped with hammers and an axial rod for counter hammers are installed over the receiving zone of the separator, and some of the counter hammers have comb runners. In addition, the distances between the walls of the hammer and the counter-hammers are equal to the minimum value of the powers of the extracted rhizomes, for example, reeds, i.e. 50 ... 90 mm. The runners are made of rubber-fabric material and are fixed in the counter hammers of various lengths, the latter decreasing in the direction from the longitudinal axis of the counter hammers. Extending the range of application of the machine for various rhizome thicknesses, i.e. for different types of rhizomes of crops, is provided by a change in the location of the rotor relative to the machine body in mutually perpendicular planes. These signs constitute the novelty of the proposed solution.

 A sign of a combined effect on the recoverable material in the sieving zone of impact, shear and vibration wiping gives the total effect of extracting rhizomes due to the combination of the effects of different components of the forces on the processed material, which leads to an increase in productivity by improving the quality of processing. Signs of implementation: a rumble in the form of a separator performing plane-parallel movement, supplying the machine with a rotor, an axial shaft for counterhammers and comb runners ensure the above operation and helps to achieve the goal. It follows that the technical solution as a whole meets the criterion of "significant differences".

 A positive effect is achieved due to a more productive and high-quality processing of the extracted material by combining with it the effect of various forces in the sieving zone, while the fertile soil layer remains practically.

 Figure 1 shows a diagram of a method for extracting rhizomes of root shoot weeds; figure 2 - diagram of a General view of a machine for extracting rhizomes; figure 3 - the location of the rotor with counterhammers; figure 4 is a view along arrow a in figure 3.

 When extracting the rhizomes of root shoot weeds, a method is used that includes the following operations (Fig. 1): plowing the rhizome field with plows without skimmers and dumps to a depth of 25 cm, then processing the soil composition raised from a predetermined depth by the sifting method with subsequent extraction of weed rhizomes by combined exposure on them by force, impact of the cut and vibration wiping, after which the extracted rhizomes are transported to the hopper with their removal outside the field. The machine contains an energy tool 1 (Fig. 2), a ploughshare 2, a copy wheel 3, an elevator 4, a separator 5 that performs plane-parallel motion, while a spring-loaded (floating) rotor 7, made with hammers 8, and an axial shaft are installed over the receiving area of the separator 5 the rod 9 (figure 3) for the counter-hammers 10, where part of the counter-hammers is provided with comb rails 11; in addition, to collect the extracted rhizomes there is a hopper 12 (figure 2).

 The distances between the walls of the hammers 8 and the counter hammers 10 are within 50 ... 90 mm, which corresponds to the length of the rhizomes to be extracted. In this case, the runners 11 (Fig. 3) are fixed in the counter hammers 10 with different lengths, which decrease in the direction from the longitudinal axis of the counter hammers 10. The runners 11 can be made of rubber-fabric material. To expand the range of application of the machine for different types of rhizomes of agricultural plants, the location of the rotor 7 relative to the frame of the machine is made adjustable in mutually perpendicular planes.

 The method of extracting rhizomes of root shoot weeds is carried out using a machine that operates as follows.

 The soil layer, raised from a depth of 25 cm by a share 2 (Fig.2), together with the rhizomes of weeds, mainly rhizomes of reeds, enters the elevator 4, where partial seeding of the soil occurs. At the exit of the elevator, the rhizomes with the transitional part of the soil are exposed to the rotor 7 with hammers 8, directing them to the separator 5, while the mass layers move relative to each other due to the alternating action of the hammers 8 of the rotor 7 on it. When the hammer 8 interacts with the counter-hammer 10, the soil crushed, crushed and sifted, this also contributes to the vibration-damping effect of the runners 11 counter-hammer 10 on the rhizomes.

 Thus, the combined effect of impact force, shear, and vibration wiping on the material being processed contributes to an increase in soil excretion from rhizomes, since the rational arrangement of the runners 11 along the width and length of the material being processed causes a complex oscillatory motion, which causes a more complete release of the most adhering soil particles from the rhizomes, thereby reduces the removal of the fertile soil layer. The movement of the separator 5 along a plane-parallel trajectory increases the effect of vibration wiping of the runners 11; in addition, this contributes to the execution of runners in the form of a comb surface of rubber fabric material. When moving from one type of weed rhizomes to another, the degree of impact of the rotor 7 on the processed material is regulated by changing the location of the rotor 7 relative to the frame of the machine in a mutually perpendicular plane. Rhizomes from the separator 5 under the action of friction forces and plane-parallel motion are transported to the hopper 12, after which they are taken out of the field. The depth of the ploughshare 2 is set by changing the height of the copying wheel 3, and the movement of the transporting working bodies is driven by the PTO of the power tool 1.

 The present invention allows to increase the degree of soil isolation from rhizomes and provides increased productivity while improving the quality of the extracted rhizomes.

Claims (5)

 1. A method of extracting rhizomes of root shoot weeds, including preliminary plowing of the rhizome field, separation of the soil with the allocation of rhizomes and transportation of rhizomes to the hopper, characterized in that the selection of rhizomes is carried out by combined impact on them by impact, shear and vibration wiping.  2. A machine for extracting rhizomes of root shoot weeds, comprising a frame, a copy wheel, a ploughshare, an elevator, a separator with a rotor and a hopper, characterized in that, in order to increase efficiency in operation, the rotor is spring-loaded and equipped with hammers and counter-hammers with comb runners, and counter-hammers are mounted on the rotor using an axial rod, while the separator is installed with the possibility of plane-parallel movement.  3. The machine according to claim 2, characterized in that the runners are fixed in the counter-hammers at different lengths, the latter decreasing in the direction from the longitudinal axis of the machine.  4. The machine according to claim 2, characterized in that the runners are made of elastic material.  5. The machine according to p. 2, characterized in that the rotor is mounted on the frame with the ability to adjust its position in the vertical and horizontal planes.

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